reco::PFJet Class Reference

Jets made from PFObjects. More...

#include <PFJet.h>

Inheritance diagram for reco::PFJet:

Classes
struct	Specific

Public Types
typedef reco::PFCandidateFwdPtr	ConstituentTypeFwdPtr
typedef reco::PFCandidatePtr	ConstituentTypePtr
Public Types inherited from reco::Jet
typedef edm::Ptr< Candidate >	Constituent
typedef std::vector< Constituent >	Constituents
Public Types inherited from reco::CompositePtrCandidate
typedef std::vector< CandidatePtr >	daughters
	collection of references to daughters More...
typedef std::vector< CandidatePtr >	mothers
	collection of references to daughters More...
Public Types inherited from reco::LeafCandidate
typedef int	Charge
	electric charge type More...
typedef CandidateCollection	daughters
	collection of daughter candidates More...
typedef unsigned int	index
typedef math::XYZTLorentzVector	LorentzVector
	Lorentz vector. More...
typedef math::XYZPoint	Point
	point in the space More...
typedef math::PtEtaPhiMLorentzVector	PolarLorentzVector
	Lorentz vector. More...
typedef math::XYZVector	Vector
	point in the space More...
Public Types inherited from reco::Candidate
enum	{ dimension = 3 }
enum	{ size = dimension * (dimension + 1)/2 }
	matix size More...
typedef int	Charge
	electric charge type More...
typedef candidate::const_iterator	const_iterator
typedef math::Error< dimension > ::type	CovarianceMatrix
	covariance error matrix (3x3) More...
typedef unsigned int	index
	index type More...
typedef candidate::iterator	iterator
typedef math::XYZTLorentzVector	LorentzVector
	Lorentz vector. More...
typedef math::XYZPoint	Point
	point in the space More...
typedef math::PtEtaPhiMLorentzVector	PolarLorentzVector
	Lorentz vector. More...
typedef size_t	size_type
typedef math::XYZVector	Vector
	point in the space More...

Public Member Functions
float	chargedEmEnergy () const
	chargedEmEnergy More...
float	chargedEmEnergyFraction () const
	chargedEmEnergyFraction More...
float	chargedHadronEnergy () const
	chargedHadronEnergy More...
float	chargedHadronEnergyFraction () const
	chargedHadronEnergyFraction More...
int	chargedHadronMultiplicity () const
	chargedHadronMultiplicity More...
float	chargedMuEnergy () const
	chargedMuEnergy More...
float	chargedMuEnergyFraction () const
	chargedMuEnergyFraction More...
int	chargedMultiplicity () const
	chargedMultiplicity More...
virtual PFJet *	clone () const
	Polymorphic clone. More...
float	electronEnergy () const
	electronEnergy More...
float	electronEnergyFraction () const
	electronEnergyFraction More...
int	electronMultiplicity () const
	electronMultiplicity More...
virtual reco::PFCandidatePtr	getPFConstituent (unsigned fIndex) const
	get specific constituent More...
virtual std::vector < reco::PFCandidatePtr >	getPFConstituents () const
	get all constituents More...
const Specific &	getSpecific () const
reco::TrackRefVector	getTrackRefs () const
float	HFEMEnergy () const
	HFEMEnergy. More...
float	HFEMEnergyFraction () const
	HFEMEnergyFraction. More...
int	HFEMMultiplicity () const
	HFEMMultiplicity. More...
float	HFHadronEnergy () const
	HFHadronEnergy. More...
float	HFHadronEnergyFraction () const
	HFHadronEnergyFraction. More...
int	HFHadronMultiplicity () const
	HFHadronMultiplicity. More...
float	hoEnergy () const
	hoEnergy More...
float	hoEnergyFraction () const
	hoEnergyFraction More...
float	muonEnergy () const
	muonEnergy More...
float	muonEnergyFraction () const
	muonEnergyFraction More...
int	muonMultiplicity () const
	muonMultiplicity More...
float	neutralEmEnergy () const
	neutralEmEnergy More...
float	neutralEmEnergyFraction () const
	neutralEmEnergyFraction More...
float	neutralHadronEnergy () const
	neutralHadronEnergy More...
float	neutralHadronEnergyFraction () const
	neutralHadronEnergyFraction More...
int	neutralHadronMultiplicity () const
	neutralHadronMultiplicity More...
int	neutralMultiplicity () const
	neutralMultiplicity More...
	PFJet ()
	PFJet (const LorentzVector &fP4, const Point &fVertex, const Specific &fSpecific, const Jet::Constituents &fConstituents)
	PFJet (const LorentzVector &fP4, const Point &fVertex, const Specific &fSpecific)
	PFJet (const LorentzVector &fP4, const Specific &fSpecific, const Jet::Constituents &fConstituents)
float	photonEnergy () const
	photonEnergy More...
float	photonEnergyFraction () const
	photonEnergyFraction More...
int	photonMultiplicity () const
	photonMultiplicity More...
virtual std::string	print () const
	Print object in details. More...
virtual	~PFJet ()
Public Member Functions inherited from reco::Jet
float	constituentEtaPhiSpread () const
float	constituentPtDistribution () const
float	etaetaMoment () const
	eta-eta second moment, ET weighted More...
float	etaphiMoment () const
	eta-phi second moment, ET weighted More...
EtaPhiMoments	etaPhiStatistics () const
	eta-phi statistics, ET weighted More...
float	etInAnnulus (float fRmin, float fRmax) const
	ET in annulus between rmin and rmax around jet direction. More...
virtual Constituents	getJetConstituents () const
	list of constituents More...
virtual std::vector< const reco::Candidate * >	getJetConstituentsQuick () const
	quick list of constituents More...
bool	isJet () const
	Jet ()
	Default constructor. More...
	Jet (const LorentzVector &fP4, const Point &fVertex)
	Initiator. More...
	Jet (const LorentzVector &fP4, const Point &fVertex, const Constituents &fConstituents)
virtual float	jetArea () const
	get jet area More...
float	maxDistance () const
	maximum distance from jet to constituent More...
int	nCarrying (float fFraction) const
	return # of constituent carrying fraction of energy More...
virtual int	nConstituents () const
	of constituents More...
virtual int	nPasses () const
	number of passes taken by algorithm More...
float	phiphiMoment () const
	phi-phi second moment, ET weighted More...
virtual float	pileup () const
	pileup energy contribution as calculated by algorithm More...
virtual void	scaleEnergy (double fScale)
	scale energy of the jet More...
virtual void	setJetArea (float fArea)
	set jet area More...
virtual void	setNPasses (int fPasses)
	Set number of passes taken by algorithm. More...
virtual void	setPileup (float fEnergy)
	Set pileup energy contribution as calculated by algorithm. More...
virtual	~Jet ()
	Destructor. More...
Public Member Functions inherited from reco::CompositePtrCandidate
void	addDaughter (const CandidatePtr &)
	add a daughter via a reference More...
void	clearDaughters ()
	clear daughter references More...
	CompositePtrCandidate ()
	default constructor More...
	CompositePtrCandidate (Charge q, const LorentzVector &p4, const Point &vtx=Point(0, 0, 0), int pdgId=0, int status=0, bool integerCharge=true)
	constructor from values More...
	CompositePtrCandidate (Charge q, const PolarLorentzVector &p4, const Point &vtx=Point(0, 0, 0), int pdgId=0, int status=0, bool integerCharge=true)
	constructor from values More...
	CompositePtrCandidate (const Candidate &p)
	constructor from a Candidate More...
virtual const Candidate *	daughter (size_type) const
	return daughter at a given position, i = 0, ... numberOfDaughters() - 1 (read only mode) More...
virtual Candidate *	daughter (size_type)
	return daughter at a given position, i = 0, ... numberOfDaughters() - 1 More...
CandidatePtr	daughterPtr (size_type i) const
	reference to daughter at given position More...
const daughters &	daughterPtrVector () const
	references to daughtes More...
virtual const Candidate *	mother (size_t i=0) const
	return pointer to mother More...
virtual size_t	numberOfDaughters () const
	number of daughters More...
virtual size_t	numberOfMothers () const
	number of mothers More...
virtual size_type	numberOfSourceCandidatePtrs () const
virtual CandidatePtr	sourceCandidatePtr (size_type i) const
virtual	~CompositePtrCandidate ()
	destructor More...
Public Member Functions inherited from reco::LeafCandidate
virtual Vector	boostToCM () const final
virtual int	charge () const final
	electric charge More...
void	construct (int qx3, float pt, float eta, float phi, float mass, const Point &vtx, int pdgId, int status)
virtual Candidate *	daughter (const std::string &s)
	return daughter with a specified role name More...
virtual const Candidate *	daughter (const std::string &s) const
	return daughter with a specified role name More...
virtual double	energy () const final
	energy More...
virtual double	et () const final
	transverse energy More...
virtual double	et2 () const final
	transverse energy squared (use this for cut!) More...
virtual double	eta () const final
	momentum pseudorapidity More...
virtual void	fillVertexCovariance (CovarianceMatrix &v) const
	fill SMatrix More...
template<typename T >
T	get () const
	get a component More...
template<typename T , typename Tag >
T	get () const
	get a component More...
template<typename T >
T	get (size_type i) const
	get a component More...
template<typename T , typename Tag >
T	get (size_type i) const
	get a component More...
virtual bool	hasMasterClone () const
virtual bool	hasMasterClonePtr () const
virtual bool	isCaloMuon () const
virtual bool	isConvertedPhoton () const
virtual bool	isElectron () const
virtual bool	isGlobalMuon () const
virtual bool	isMuon () const
virtual bool	isPhoton () const
virtual bool	isStandAloneMuon () const
virtual bool	isTrackerMuon () const
	LeafCandidate ()
	LeafCandidate (const Candidate &c)
template<typename... Args>
	LeafCandidate (Args &&...args)
	LeafCandidate (LeafCandidate &rh)
	LeafCandidate (LeafCandidate &&)=default
	LeafCandidate (LeafCandidate const &)=default
virtual bool	longLived () const final
	is long lived? More...
virtual double	mass () const final
	mass More...
virtual bool	massConstraint () const final
	do mass constraint? More...
virtual double	massSqr () const final
	mass squared More...
virtual const CandidateBaseRef &	masterClone () const
virtual const CandidatePtr &	masterClonePtr () const
template<typename Ref >
Ref	masterRef () const
	cast master clone reference to a concrete type More...
virtual Vector	momentum () const final
	spatial momentum vector More...
virtual double	mt () const final
	transverse mass More...
virtual double	mtSqr () const final
	transverse mass squared More...
template<typename T >
size_type	numberOf () const
	number of components More...
template<typename T , typename Tag >
size_type	numberOf () const
	number of components More...
LeafCandidate &	operator= (LeafCandidate &&)=default
LeafCandidate &	operator= (LeafCandidate const &)=default
virtual double	p () const final
	magnitude of momentum vector More...
virtual const LorentzVector &	p4 () const final
	four-momentum Lorentz vector More...
virtual int	pdgId () const final
	PDG identifier. More...
virtual double	phi () const final
	momentum azimuthal angle More...
virtual const PolarLorentzVector &	polarP4 () const final
	four-momentum Lorentz vector More...
virtual double	pt () const final
	transverse momentum More...
virtual double	px () const final
	x coordinate of momentum vector More...
virtual double	py () const final
	y coordinate of momentum vector More...
virtual double	pz () const final
	z coordinate of momentum vector More...
virtual double	rapidity () const final
	rapidity More...
virtual void	setCharge (Charge q) final
	set electric charge More...
virtual void	setLongLived () final
virtual void	setMass (double m) final
	set particle mass More...
virtual void	setMassConstraint () final
virtual void	setP4 (const LorentzVector &p4) final
	set 4-momentum More...
virtual void	setP4 (const PolarLorentzVector &p4) final
	set 4-momentum More...
virtual void	setPdgId (int pdgId) final
virtual void	setPz (double pz) final
virtual void	setStatus (int status) final
	set status word More...
virtual void	setThreeCharge (Charge qx3) final
	set electric charge More...
virtual void	setVertex (const Point &vertex)
	set vertex More...
virtual int	status () const final
	status word More...
virtual double	theta () const final
	momentum polar angle More...
virtual int	threeCharge () const final
	electric charge More...
virtual const Point &	vertex () const
	vertex position (overwritten by PF...) More...
virtual double	vertexChi2 () const
	chi-squares More...
virtual double	vertexCovariance (int i, int j) const
	(i, j)-th element of error matrix, i, j = 0, ... 2 More...
CovarianceMatrix	vertexCovariance () const final
	return SMatrix More...
virtual double	vertexNdof () const
virtual double	vertexNormalizedChi2 () const
	chi-squared divided by n.d.o.f. More...
virtual double	vx () const
	x coordinate of vertex position More...
virtual double	vy () const
	y coordinate of vertex position More...
virtual double	vz () const
	z coordinate of vertex position More...
virtual double	y () const final
	rapidity More...
virtual	~LeafCandidate ()
	destructor More...
Public Member Functions inherited from reco::Candidate
const_iterator	begin () const
	first daughter const_iterator More...
iterator	begin ()
	first daughter iterator More...
virtual const Track *	bestTrack () const
	Candidate ()
	default constructor More...
virtual float	dxyError () const
	uncertainty on dxy More...
virtual float	dzError () const
	uncertainty on dz More...
const_iterator	end () const
	last daughter const_iterator More...
iterator	end ()
	last daughter iterator More...
template<typename T >
T	get () const
	get a component More...
template<typename T , typename Tag >
T	get () const
	get a component More...
template<typename T >
T	get (size_type i) const
	get a component More...
template<typename T , typename Tag >
T	get (size_type i) const
	get a component More...
template<typename Ref >
Ref	masterRef () const
	cast master clone reference to a concrete type More...
template<typename T >
size_type	numberOf () const
	number of components More...
template<typename T , typename Tag >
size_type	numberOf () const
	number of components More...
virtual void	setSourceCandidatePtr (const CandidatePtr &ptr)
	Set the ptr to the source Candidate. More...
virtual	~Candidate ()
	destructor More...

Private Member Functions
virtual bool	overlap (const Candidate &) const
	Polymorphic overlap. More...

Private Attributes
Specific	m_specific

Additional Inherited Members
Static Public Member Functions inherited from reco::Jet
static float	detectorEta (float fZVertex, float fPhysicsEta)
	static function to convert physics eta to detector eta More...
static Candidate::LorentzVector	detectorP4 (const Candidate::Point &vertex, const Candidate &inParticle)
static float	physicsEta (float fZVertex, float fDetectorEta)
	static function to convert detector eta to physics eta More...
static Candidate::LorentzVector	physicsP4 (const Candidate::Point &newVertex, const Candidate &inParticle, const Candidate::Point &oldVertex=Candidate::Point(0, 0, 0))

Detailed Description

Jets made from PFObjects.

PFJet represents Jets made from Particle Flow objects Provide energy contributions from different PF types in addition to generic Jet parameters

Author

Fedor Ratnikov, UMd, Apr 24, 2007

Definition at line 21 of file PFJet.h.

Member Typedef Documentation

typedef reco::PFCandidateFwdPtr reco::PFJet::ConstituentTypeFwdPtr

Definition at line 25 of file PFJet.h.

typedef reco::PFCandidatePtr reco::PFJet::ConstituentTypePtr

Definition at line 24 of file PFJet.h.

Constructor & Destructor Documentation

reco::PFJet::PFJet ( )

inline

Default constructor

Definition at line 82 of file PFJet.h.

Referenced by clone().

{}

PFJet::PFJet	(	const LorentzVector &	fP4,
		const Point &	fVertex,
		const Specific &	fSpecific,
		const Jet::Constituents &	fConstituents
	)

Constructor from values

Definition at line 15 of file PFJet.cc.

  : Jet (fP4, fVertex, fConstituents),
    m_specific (fSpecific)
{}

PFJet::PFJet	(	const LorentzVector &	fP4,
		const Point &	fVertex,
		const Specific &	fSpecific
	)

Definition at line 22 of file PFJet.cc.

  : Jet (fP4, fVertex),
    m_specific (fSpecific)
{}

PFJet::PFJet	(	const LorentzVector &	fP4,
		const Specific &	fSpecific,
		const Jet::Constituents &	fConstituents
	)

backward compatible, vertex=(0,0,0)

Definition at line 28 of file PFJet.cc.

  : Jet (fP4, Point(0,0,0), fConstituents),
    m_specific (fSpecific)
{}

virtual reco::PFJet::~PFJet ( )

inlinevirtual

Definition at line 95 of file PFJet.h.

{};

Member Function Documentation

float reco::PFJet::chargedEmEnergy ( ) const

inline

chargedEmEnergy

Definition at line 142 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mChargedEmEnergy.

Referenced by Jet.Jet::chargedEmEnergyFraction(), chargedEmEnergyFraction(), MVAJetPuId::computeIdVariables(), PileupJetIdAlgo::computeIdVariables(), PFJetIDSelectionFunctor::firstDataCuts(), Jet.Jet::jetID(), AcceptJet::operator()(), reco::PFMETProducerMVA::passPFLooseId(), print(), PFJetBenchmark::printPFJet(), and JetIdSelector< T >::produce().

{return m_specific.mChargedEmEnergy;}

float reco::PFJet::chargedEmEnergyFraction ( ) const

inline

chargedEmEnergyFraction

Definition at line 144 of file PFJet.h.

References chargedEmEnergy(), and reco::LeafCandidate::energy().

Referenced by DiJetAnalyzer::analyze(), GammaJetAnalysis::analyze(), B2GDQM::analyzeJets(), L1JetRecoTreeProducer::jetId(), and FFTGenericScaleCalculator::mapFFTJet().

{return chargedEmEnergy () / energy ();}

float reco::PFJet::chargedHadronEnergy ( ) const

inline

chargedHadronEnergy

Definition at line 98 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mChargedHadronEnergy.

Referenced by Jet.Jet::chargedHadronEnergyFraction(), chargedHadronEnergyFraction(), MVAJetPuId::computeIdVariables(), PileupJetIdAlgo::computeIdVariables(), PFJetIDSelectionFunctor::firstDataCuts(), Jet.Jet::jetID(), AcceptJet::operator()(), reco::PFMETProducerMVA::passPFLooseId(), print(), PFJetBenchmark::printPFJet(), PFJetBenchmark::process(), and JetIdSelector< T >::produce().

{return m_specific.mChargedHadronEnergy;}

float reco::PFJet::chargedHadronEnergyFraction ( ) const

inline

chargedHadronEnergyFraction

Definition at line 100 of file PFJet.h.

References chargedHadronEnergy(), and reco::LeafCandidate::energy().

Referenced by DiJetAnalyzer::analyze(), GammaJetAnalysis::analyze(), B2GDQM::analyzeJets(), L1JetRecoTreeProducer::jetId(), FFTGenericScaleCalculator::mapFFTJet(), and reco::operator<<().

{return chargedHadronEnergy () / energy ();}

int reco::PFJet::chargedHadronMultiplicity ( ) const

inline

chargedHadronMultiplicity

Definition at line 127 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mChargedHadronMultiplicity.

Referenced by PFJetMonitor::fillOne(), Jet.Jet::jetID(), FFTGenericScaleCalculator::mapFFTJet(), and print().

{return m_specific.mChargedHadronMultiplicity;}

float reco::PFJet::chargedMuEnergy ( ) const

inline

chargedMuEnergy

Definition at line 146 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mChargedMuEnergy.

Referenced by Jet.Jet::chargedMuEnergyFraction(), chargedMuEnergyFraction(), print(), and PFJetBenchmark::printPFJet().

{return m_specific.mChargedMuEnergy;}

float reco::PFJet::chargedMuEnergyFraction ( ) const

inline

chargedMuEnergyFraction

Definition at line 148 of file PFJet.h.

References chargedMuEnergy(), and reco::LeafCandidate::energy().

Referenced by FFTGenericScaleCalculator::mapFFTJet().

{return chargedMuEnergy () / energy ();}

int reco::PFJet::chargedMultiplicity ( ) const

inline

chargedMultiplicity

Definition at line 155 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mChargedMultiplicity.

Referenced by DiJetAnalyzer::analyze(), GammaJetAnalysis::analyze(), MVAJetPuId::computeIdVariables(), PileupJetIdAlgo::computeIdVariables(), PFJetIDSelectionFunctor::firstDataCuts(), getTrackRefs(), L1JetRecoTreeProducer::jetId(), Jet.Jet::jetID(), FFTGenericScaleCalculator::mapFFTJet(), AcceptJet::operator()(), reco::PFMETProducerMVA::passPFLooseId(), print(), PFJetBenchmark::printPFJet(), PFJetBenchmark::process(), and JetIdSelector< T >::produce().

{return m_specific.mChargedMultiplicity;}

PFJet * PFJet::clone ( void  ) const

virtual

Polymorphic clone.

Reimplemented from reco::CompositePtrCandidate.

Definition at line 75 of file PFJet.cc.

References PFJet().

                           {
  return new PFJet (*this);
}

float reco::PFJet::electronEnergy ( ) const

inline

electronEnergy

Definition at line 110 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mElectronEnergy.

Referenced by Jet.Jet::electronEnergyFraction(), electronEnergyFraction(), PFJetIDSelectionFunctor::firstDataCuts(), and print().

{return m_specific.mElectronEnergy;}

float reco::PFJet::electronEnergyFraction ( ) const

inline

electronEnergyFraction

Definition at line 112 of file PFJet.h.

References electronEnergy(), and reco::LeafCandidate::energy().

Referenced by FFTGenericScaleCalculator::mapFFTJet(), and reco::operator<<().

{return electronEnergy () / energy ();}

int reco::PFJet::electronMultiplicity ( ) const

inline

electronMultiplicity

Definition at line 133 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mElectronMultiplicity.

Referenced by PFJetMonitor::fillOne(), L1JetRecoTreeProducer::jetId(), FFTGenericScaleCalculator::mapFFTJet(), and print().

{return m_specific.mElectronMultiplicity;}

reco::PFCandidatePtr PFJet::getPFConstituent ( unsigned  fIndex ) const

virtual

get specific constituent

Definition at line 35 of file PFJet.cc.

References reco::CompositePtrCandidate::dau, reco::CompositePtrCandidate::daughterPtr(), Exception, edm::Ptr< T >::get(), edm::Ptr< T >::id(), edm::Ptr< T >::isAvailable(), edm::Ptr< T >::isNonnull(), and edm::Ptr< T >::key().

Referenced by MVAJetPuId::computeIdVariables(), getPFConstituents(), and getTrackRefs().

                                                                 {

  Constituent dau = daughterPtr (fIndex);
  if ( dau.isNonnull() && dau.isAvailable() ) {
    const PFCandidate* pfCandidate = dynamic_cast <const PFCandidate*> (dau.get());
    if (pfCandidate) {
      return edm::Ptr<PFCandidate> (dau.id(), pfCandidate, dau.key() );
    }
    else {
      throw cms::Exception("Invalid Constituent") << "PFJet constituent is not of PFCandidate type";
    }
   }
   else {
     return PFCandidatePtr();
   }
}

std::vector< reco::PFCandidatePtr > PFJet::getPFConstituents ( ) const

virtual

get all constituents

Definition at line 52 of file PFJet.cc.

References getPFConstituent(), i, reco::CompositePtrCandidate::numberOfDaughters(), and mps_fire::result.

Referenced by DiJetAnalyzer::analyze(), GammaJetAnalysis::analyze(), MVAJetPuId::computeIdVariables(), AcceptJet::operator()(), reco::tau::PFRecoTauChargedHadronFromPFCandidatePlugin::operator()(), reco::tau::PFRecoTauChargedHadronFromTrackPlugin::operator()(), reco::tau::pfCandidates(), reco::tau::pfChargedCands(), print(), PFJetBenchmark::process(), RecoTauJetRegionProducer::produce(), ShiftedPFCandidateProducerForNoPileUpPFMEt::produce(), and pat::PATJetProducer::produce().

                                                               {
  std::vector <PFCandidatePtr> result;
  for (unsigned i = 0;  i <  numberOfDaughters (); i++) result.push_back (getPFConstituent(i));
  return result;
}

const Specific& reco::PFJet::getSpecific ( ) const

inline

Definition at line 177 of file PFJet.h.

References m_specific.

{return m_specific;}

reco::TrackRefVector PFJet::getTrackRefs

(

)

const

\ brief get all tracks in the jets All PFCandidates hold a reference to a track. All the non-null references are added to the returned TrackRefVector

Definition at line 59 of file PFJet.cc.

References chargedMultiplicity(), getPFConstituent(), i, edm::Ref< C, T, F >::isNonnull(), reco::CompositePtrCandidate::numberOfDaughters(), edm::RefVector< C, T, F >::push_back(), edm::RefVector< C, T, F >::reserve(), and mps_fire::result.

Referenced by JetTracksAssociationExplicit::produce().

                                             {
  // result will contain chargedMultiplicity() elements
  reco::TrackRefVector result;
  result.reserve( chargedMultiplicity() );
  for (unsigned i = 0;  i <  numberOfDaughters (); i++) {
    const reco::PFCandidatePtr pfcand = getPFConstituent (i);
    reco::TrackRef trackref = pfcand->trackRef();
    if( trackref.isNonnull() ) {
      result.push_back( trackref );
    }
  }

  return result;
}

float reco::PFJet::HFEMEnergy ( ) const

inline

HFEMEnergy.

Definition at line 122 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mHFEMEnergy.

Referenced by PFJetIDSelectionFunctor::firstDataCuts(), Jet.Jet::HFEMEnergyFraction(), HFEMEnergyFraction(), and print().

{return m_specific.mHFEMEnergy;}

float reco::PFJet::HFEMEnergyFraction ( ) const

inline

HFEMEnergyFraction.

Definition at line 124 of file PFJet.h.

References reco::LeafCandidate::energy(), and HFEMEnergy().

Referenced by FFTGenericScaleCalculator::mapFFTJet(), and reco::operator<<().

{return HFEMEnergy () / energy ();}

int reco::PFJet::HFEMMultiplicity ( ) const

inline

HFEMMultiplicity.

Definition at line 139 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mHFEMMultiplicity.

Referenced by FFTGenericScaleCalculator::mapFFTJet(), and print().

{return m_specific.mHFEMMultiplicity;}

float reco::PFJet::HFHadronEnergy ( ) const

inline

HFHadronEnergy.

Definition at line 118 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mHFHadronEnergy.

Referenced by Jet.Jet::HFHadronEnergyFraction(), HFHadronEnergyFraction(), and print().

{return m_specific.mHFHadronEnergy;}

float reco::PFJet::HFHadronEnergyFraction ( ) const

inline

HFHadronEnergyFraction.

Definition at line 120 of file PFJet.h.

References reco::LeafCandidate::energy(), and HFHadronEnergy().

Referenced by FFTGenericScaleCalculator::mapFFTJet(), and reco::operator<<().

{return HFHadronEnergy () / energy ();}

int reco::PFJet::HFHadronMultiplicity ( ) const

inline

HFHadronMultiplicity.

Definition at line 137 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mHFHadronMultiplicity.

Referenced by FFTGenericScaleCalculator::mapFFTJet(), and print().

{return m_specific.mHFHadronMultiplicity;}

float reco::PFJet::hoEnergy ( ) const

inline

hoEnergy

Definition at line 160 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mHOEnergy.

Referenced by Jet.Jet::hoEnergyFraction(), hoEnergyFraction(), and print().

{return m_specific.mHOEnergy;}

float reco::PFJet::hoEnergyFraction ( ) const

inline

hoEnergyFraction

Definition at line 162 of file PFJet.h.

References reco::LeafCandidate::energy(), and hoEnergy().

{return hoEnergy () / energy ();}

float reco::PFJet::muonEnergy ( ) const

inline

muonEnergy

Definition at line 114 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mMuonEnergy.

Referenced by PFJetIDSelectionFunctor::firstDataCuts(), Jet.Jet::jetID(), Jet.Jet::muonEnergyFraction(), muonEnergyFraction(), and print().

{return m_specific.mMuonEnergy;}

float reco::PFJet::muonEnergyFraction ( ) const

inline

muonEnergyFraction

Definition at line 116 of file PFJet.h.

References reco::LeafCandidate::energy(), and muonEnergy().

Referenced by L1JetRecoTreeProducer::jetId(), FFTGenericScaleCalculator::mapFFTJet(), and reco::operator<<().

{return muonEnergy () / energy ();}

int reco::PFJet::muonMultiplicity ( ) const

inline

muonMultiplicity

Definition at line 135 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mMuonMultiplicity.

Referenced by PFJetMonitor::fillOne(), L1JetRecoTreeProducer::jetId(), FFTGenericScaleCalculator::mapFFTJet(), and print().

{return m_specific.mMuonMultiplicity;}

float reco::PFJet::neutralEmEnergy ( ) const

inline

neutralEmEnergy

Definition at line 150 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mNeutralEmEnergy.

Referenced by MVAJetPuId::computeIdVariables(), PileupJetIdAlgo::computeIdVariables(), PFJetIDSelectionFunctor::firstDataCuts(), Jet.Jet::jetID(), Jet.Jet::neutralEmEnergyFraction(), neutralEmEnergyFraction(), AcceptJet::operator()(), reco::PFMETProducerMVA::passPFLooseId(), print(), PFJetBenchmark::printPFJet(), PFJetBenchmark::process(), and JetIdSelector< T >::produce().

{return m_specific.mNeutralEmEnergy;}

float reco::PFJet::neutralEmEnergyFraction ( ) const

inline

neutralEmEnergyFraction

Definition at line 152 of file PFJet.h.

References reco::LeafCandidate::energy(), and neutralEmEnergy().

Referenced by DiJetAnalyzer::analyze(), GammaJetAnalysis::analyze(), B2GDQM::analyzeJets(), L1JetRecoTreeProducer::jetId(), and FFTGenericScaleCalculator::mapFFTJet().

{return neutralEmEnergy () / energy ();}

float reco::PFJet::neutralHadronEnergy ( ) const

inline

neutralHadronEnergy

Definition at line 102 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mNeutralHadronEnergy.

Referenced by MVAJetPuId::computeIdVariables(), PileupJetIdAlgo::computeIdVariables(), PFJetIDSelectionFunctor::firstDataCuts(), Jet.Jet::jetID(), Jet.Jet::neutralHadronEnergyFraction(), neutralHadronEnergyFraction(), AcceptJet::operator()(), reco::PFMETProducerMVA::passPFLooseId(), print(), PFJetBenchmark::printPFJet(), PFJetBenchmark::process(), and JetIdSelector< T >::produce().

{return m_specific.mNeutralHadronEnergy;}

float reco::PFJet::neutralHadronEnergyFraction ( ) const

inline

neutralHadronEnergyFraction

Definition at line 104 of file PFJet.h.

References reco::LeafCandidate::energy(), and neutralHadronEnergy().

Referenced by DiJetAnalyzer::analyze(), GammaJetAnalysis::analyze(), B2GDQM::analyzeJets(), L1JetRecoTreeProducer::jetId(), FFTGenericScaleCalculator::mapFFTJet(), and reco::operator<<().

{return neutralHadronEnergy () / energy ();}

int reco::PFJet::neutralHadronMultiplicity ( ) const

inline

neutralHadronMultiplicity

Definition at line 129 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mNeutralHadronMultiplicity.

Referenced by PFJetMonitor::fillOne(), FFTGenericScaleCalculator::mapFFTJet(), and print().

{return m_specific.mNeutralHadronMultiplicity;}

int reco::PFJet::neutralMultiplicity ( ) const

inline

neutralMultiplicity

Definition at line 157 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mNeutralMultiplicity.

Referenced by DiJetAnalyzer::analyze(), MVAJetPuId::computeIdVariables(), PileupJetIdAlgo::computeIdVariables(), PFJetIDSelectionFunctor::firstDataCuts(), L1JetRecoTreeProducer::jetId(), Jet.Jet::jetID(), FFTGenericScaleCalculator::mapFFTJet(), print(), and PFJetBenchmark::printPFJet().

{return m_specific.mNeutralMultiplicity;}

bool PFJet::overlap ( const Candidate &  ) const

privatevirtual

Polymorphic overlap.

Reimplemented from reco::CompositePtrCandidate.

Definition at line 79 of file PFJet.cc.

                                             {
  return false;
}

float reco::PFJet::photonEnergy ( ) const

inline

photonEnergy

Definition at line 106 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mPhotonEnergy.

Referenced by PFJetIDSelectionFunctor::firstDataCuts(), Jet.Jet::photonEnergyFraction(), photonEnergyFraction(), and print().

{return m_specific.mPhotonEnergy;}

float reco::PFJet::photonEnergyFraction ( ) const

inline

photonEnergyFraction

Definition at line 108 of file PFJet.h.

References reco::LeafCandidate::energy(), and photonEnergy().

Referenced by FFTGenericScaleCalculator::mapFFTJet(), and reco::operator<<().

{return photonEnergy () / energy ();}

int reco::PFJet::photonMultiplicity ( ) const

inline

photonMultiplicity

Definition at line 131 of file PFJet.h.

References m_specific, and reco::PFJet::Specific::mPhotonMultiplicity.

Referenced by PFJetMonitor::fillOne(), FFTGenericScaleCalculator::mapFFTJet(), and print().

{return m_specific.mPhotonMultiplicity;}

std::string PFJet::print ( void  ) const

virtual

Print object in details.

Reimplemented from reco::Jet.

Definition at line 83 of file PFJet.cc.

References chargedEmEnergy(), chargedHadronEnergy(), chargedHadronMultiplicity(), chargedMuEnergy(), chargedMultiplicity(), electronEnergy(), electronMultiplicity(), getPFConstituents(), HFEMEnergy(), HFEMMultiplicity(), HFHadronEnergy(), HFHadronMultiplicity(), hoEnergy(), i, muonEnergy(), muonMultiplicity(), neutralEmEnergy(), neutralHadronEnergy(), neutralHadronMultiplicity(), neutralMultiplicity(), GenerateHcalLaserBadRunList::out, photonEnergy(), photonMultiplicity(), and reco::Jet::print().

Referenced by PFJetBenchmark::printPFJet().

                              {
  std::ostringstream out;
  out << Jet::print () // generic jet info
      << "    PFJet specific:" << std::endl
      << "      charged hadron energy/multiplicity: " << chargedHadronEnergy () << '/' << chargedHadronMultiplicity () << std::endl
      << "      neutral hadron energy/multiplicity: " << neutralHadronEnergy () << '/' << neutralHadronMultiplicity () << std::endl
      << "      photon energy/multiplicity: " << photonEnergy () << '/' << photonMultiplicity () << std::endl
      << "      electron energy/multiplicity: " << electronEnergy () << '/' << electronMultiplicity () << std::endl
      << "      muon energy/multiplicity: " << muonEnergy () << '/' << muonMultiplicity () << std::endl
      << "      HF Hadron energy/multiplicity: " << HFHadronEnergy () << '/' << HFHadronMultiplicity () << std::endl
      << "      HF EM particle energy/multiplicity: " << HFEMEnergy () << '/' << HFEMMultiplicity () << std::endl
      << "      charged/neutral hadrons energy: " << chargedHadronEnergy () << '/' << neutralHadronEnergy () << std::endl
      << "      charged/neutral em energy: " << chargedEmEnergy () << '/' << neutralEmEnergy () << std::endl
      << "      charged muon energy: " << chargedMuEnergy () << '/' << std::endl
      << "      charged/neutral multiplicity: " << chargedMultiplicity () << '/' << neutralMultiplicity () << std::endl
      << "      HO energy: " << hoEnergy () << std::endl;
  out << "      PFCandidate constituents:" << std::endl;
  std::vector <PFCandidatePtr> constituents = getPFConstituents ();
  for (unsigned i = 0; i < constituents.size (); ++i) {
    if (constituents[i].get()) {
      out << "      #" << i << " " << *(constituents[i]) << std::endl;
    }
    else {
      out << "      #" << i << " PFCandidate is not available in the event"  << std::endl;
    }
  }
  return out.str ();
}

Member Data Documentation

Specific reco::PFJet::m_specific

private

Definition at line 191 of file PFJet.h.

Referenced by chargedEmEnergy(), chargedHadronEnergy(), chargedHadronMultiplicity(), chargedMuEnergy(), chargedMultiplicity(), electronEnergy(), electronMultiplicity(), getSpecific(), HFEMEnergy(), HFEMMultiplicity(), HFHadronEnergy(), HFHadronMultiplicity(), hoEnergy(), muonEnergy(), muonMultiplicity(), neutralEmEnergy(), neutralHadronEnergy(), neutralHadronMultiplicity(), neutralMultiplicity(), photonEnergy(), and photonMultiplicity().